Unit 8 User Interfaces ( 使用者介面 )

Unit 8 • User Interfaces • (使用者介面) Unit 8 User Interfaces

PART II: 資料庫設計 (Database Design) • 資料庫問題分析與架構規劃: • 若有一大量資料想利用DBMS建資料庫來管理。第一步要分析問題，找到使用者需求 • 實體-關係模型(Entity-Relationship Model,簡稱E-R Model)是一套資料庫的設計工具。我們可以利用E-R Model分析資料庫問題。它可以把真實世界中複雜的問題中的事物和關係轉化為資料庫中的資料架構 • 由於利用實體-關係模型設計資料庫時, 並不會牽涉到資料庫的操作、儲存方式等複雜的電腦運作。所以,我們會把心力放在需求分析去規劃想要的資料庫，並以實體-關係圖(E-R Diagram)來呈現 • 資料庫的表格正規化: • 實體-關係圖很容易轉化為表格(Tables)，而資料庫就是由許多表格(tables)組成的 • 這些表格要正規化(Normalization)才能避免將來操作時的異常現象發生 • 設計介面增刪查改資料庫: • 如何方便、又有效率的管理存取資料庫是使用者最關心的二個要素 • 良好的介面設計，可以讓使用者方便的查詢、方便的新增、方便的刪除、方便的修改的處理資料庫 Unit 6 Database Design and the E-R Model

EX.part2.3: User Interface and Authorization • Design User Interface • Design user interface, and more • Design your Web Interfaces to Databases • … • Design Authorization • Read authorization - allows reading, but not modification of data. • Insert authorization - allows insertion of new data, but not modification of existing data. • Update authorization - allows modification, but not deletion of data. • Delete authorization - allows deletion of data Unit 6 Database Design and the E-R Model

EX.part2.4: A Comprehensive Report • 撰寫完整報告, 內容應包括 • 封面: 題目,組員 • 系統分析與設計: 題目介紹,E-R Diagram • 分析探討: • Reduction E-R Model to Relational Tables • Checking Normal Forms • 顯示實作畫面, 包括: • Queries to access your database • User interface, and more • 程式 Listing • 心得報告 • Due Date: ___月____日 (星期 ?) 23:59:59 前上傳給助教 Unit 6 Database Design and the E-R Model

Contents of PART II: 資料庫設計 • Unit 6 Database Design and the E-R Model • Unit 7 Normalization (表格正規化) • Unit 8 User Interfaces (使用者介面) • Unit 9 實作範例一: • Unit 10 實作範例二: ---------------------------------------------------- • References: 1. C. J. Date, An Introduction to Database Systems, 8th edition, Addison-Wesley, 2004. 2. A. Silberschatz, etc., Database System Concepts, 5th edition, McGraw Hill, 2006. 3. J. D. Ullman and J. Widom, A First Course in Database Systems, 3rd edition, Prentice Hall, 2007. 4. Cited papers (講義中提到之參考文獻) Unit 6 Database Design and the E-R Model

Outline • 6.1 Overview of the Database Design Process • 6.2 The E-R Model • 6.3 Constraints • 6.4 E-R Diagrams • 6.5 E-R Design Issues • 6.6 Weak Entity Sets • 6.7 Reduction E-R Model to Relational Tables • 6.8 Case Study: E-R for Supplier-and-Parts Database Unit 6 Database Design and the E-R Model

Application Design and Development Unit 8 User Interfaces

User Interfaces and Tools Web Interfaces to Databases Web Fundamentals Servlets and JSP Building Large Web Applications Triggers Authorization in SQL Application Security Application Design and Development Unit 8 User Interfaces

User Interfaces and Tools • Most database users do not use a query language like SQL. • Forms • Graphical user interfaces • Report generators • Data analysis tools (see Chapter 18) • Many interfaces are Web-based • Back-end (Web server) uses such technologies as • Java servlets • Java Server Pages (JSP) • Active Server Pages (ASP) Unit 8 User Interfaces

The Web is a distributed information system based on hypertext. Most Web documents are hypertext documents formatted via the HyperText Markup Language (HTML) HTML documents contain text along with font specifications, and other formatting instructions hypertext links to other documents, which can be associated with regions of the text. forms, enabling users to enter data which can then be sent back to the Web server The World Wide Web Unit 8 User Interfaces

A formatted report Unit 8 User Interfaces

Why interface databases to the Web? Web browsers have become the de-facto standard user interface to databases Enable large numbers of users to access databases from anywhere Avoid the need for downloading/installing specialized code, while providing a good graphical user interface Examples: banks, airline and rental car reservations, university course registration and grading, an so on. Web Interfaces to Databases Unit 8 User Interfaces

Dynamic generation of documents Limitations of static HTML documents Cannot customize fixed Web documents for individual users. Problematic to update Web documents, especially if multiple Web documents replicate data. Solution: Generate Web documents dynamically from data stored in a database. Can tailor the display based on user information stored in the database. E.g. tailored ads, tailored weather and local news, … Displayed information is up-to-date, unlike the static Web pages E.g. stock market information, .. Web Interfaces to Database (Cont.) Unit 8 User Interfaces

In the Web, functionality of pointers is provided by Uniform Resource Locators (URLs). URL example: http://www.bell-labs.com/topics/book/db-book The first part indicates how the document is to be accessed “http” indicates that the document is to be accessed using the Hyper Text Transfer Protocol. The second part gives the unique name of a machine on the Internet. The rest of the URL identifies the document within the machine. The local identification can be: The path name of a file on the machine, or An identifier (path name) of a program, plus arguments to be passed to the program E.g. http://www.google.com/search?q=silberschatz Uniform Resources Locators Unit 8 User Interfaces

HTML provides formatting, hypertext link, and image display features. HTML also provides input features Select from a set of options Pop-up menus, radio buttons, check lists Enter values Text boxes Filled in input sent back to the server, to be acted upon by an executable at the server HyperText Transfer Protocol (HTTP) used for communication with the Web server HTML and HTTP Unit 8 User Interfaces

<html> <body><table border cols = 3> <tr> <td> A-101 </td> <td> Downtown </td> <td> 500 </td> </tr> …</table><center> The <i>account</i> relation </center> <form action=“BankQuery” method=get> Select account/loan and enter number <br> <select name=“type”> <option value=“account” selected> Account <option> value=“Loan”> Loan</select> <input type=text size=5 name=“number”> <input type=submit value=“submit”></form></body> </html> Sample HTML Source Text Unit 8 User Interfaces

Display of Sample HTML Source Unit 8 User Interfaces

Client Side Scripting and Applets • Browsers can fetch certain scripts (client-side scripts) or programs along with documents, and execute them in “safe mode” at the client site • Javascript • Macromedia Flash and Shockwave for animation/games • VRML • Applets • Client-side scripts/programs allow documents to be active • E.g., animation by executing programs at the local site • E.g. ensure that values entered by users satisfy some correctness checks • Permit flexible interaction with the user. • Executing programs at the client site speeds up interaction by avoiding many round trips to server Unit 8 User Interfaces

Security mechanisms needed to ensure that malicious scripts do not cause damage to the client machine Easy for limited capability scripting languages, harder for general purpose programming languages like Java E.g. Java’s security system ensures that the Java applet code does not make any system calls directly Disallows dangerous actions such as file writes Notifies the user about potentially dangerous actions, and allows the option to abort the program or to continue execution. Client Side Scripting and Security Unit 8 User Interfaces

A Web server can easily serve as a front end to a variety of information services. The document name in a URL may identify an executable program, that, when run, generates a HTML document. When a HTTP server receives a request for such a document, it executes the program, and sends back the HTML document that is generated. The Web client can pass extra arguments with the name of the document. To install a new service on the Web, one simply needs to create and install an executable that provides that service. The Web browser provides a graphical user interface to the information service. Common Gateway Interface (CGI): a standard interface between web and application server Web Servers Unit 8 User Interfaces

Three-Tier Web Architecture Unit 8 User Interfaces

Two-Tier Web Architecture • Multiple levels of indirection have overheads • Alternative: two-tier architecture Unit 8 User Interfaces

HTTP and Sessions • The HTTP protocol is connectionless • That is, once the server replies to a request, the server closes the connection with the client, and forgets all about the request • In contrast, Unix logins, and JDBC/ODBC connections stay connected until the client disconnects • retaining user authentication and other information • Motivation: reduces load on server • operating systems have tight limits on number of open connections on a machine • Information services need session information • E.g. user authentication should be done only once per session • Solution: use a cookie Unit 8 User Interfaces

Sessions and Cookies • A cookie is a small piece of text containing identifying information • Sent by server to browser on first interaction • Sent by browser to the server that created the cookie on further interactions • part of the HTTP protocol • Server saves information about cookies it issued, and can use it when serving a request • E.g., authentication information, and user preferences • Cookies can be stored permanently or for a limited time Unit 8 User Interfaces

Servlets • Java Servlet specification defines an API for communication between the Web server and application program • E.g. methods to get parameter values and to send HTML text back to client • Application program (also called a servlet) is loaded into the Web server • Two-tier model • Each request spawns a new thread in the Web server • thread is closed once the request is serviced • Servlet API provides a getSession() method • Sets a cookie on first interaction with browser, and uses it to identify session on further interactions • Provides methods to store and look-up per-session information • E.g. user name, preferences, .. Unit 8 User Interfaces

Example Servlet Code Public class BankQuery(Servlet extends HttpServlet {public void doGet(HttpServletRequest request, HttpServletResponse result) throws ServletException, IOException { String type = request.getParameter(“type”); String number = request.getParameter(“number”); …code to find the loan amount/account balance … …using JDBC to communicate with the database.. …we assume the value is stored in the variable balance result.setContentType(“text/html”);PrintWriter out = result.getWriter( );out.println(“<HEAD><TITLE>Query Result</TITLE></HEAD>”);out.println(“<BODY>”);out.println(“Balance on “ + type + number + “=“ + balance);out.println(“</BODY>”);out.close ( );} } Unit 8 User Interfaces

Server-Side Scripting • Server-side scripting simplifies the task of connecting a database to the Web • Define a HTML document with embedded executable code/SQL queries. • Input values from HTML forms can be used directly in the embedded code/SQL queries. • When the document is requested, the Web server executes the embedded code/SQL queries to generate the actual HTML document. • Numerous server-side scripting languages • JSP, Server-side Javascript, ColdFusion Markup Language (cfml), PHP, Jscript • General purpose scripting languages: VBScript, Perl, Python Unit 8 User Interfaces

Improving Web Server Performance • Performance is an issue for popular Web sites • May be accessed by millions of users every day, thousands of requests per second at peak time • Caching techniques used to reduce cost of serving pages by exploiting commonalities between requests • At the server site: • Caching of JDBC connections between servlet requests • Caching results of database queries • Cached results must be updated if underlying database changes • Caching of generated HTML • At the client’s network • Caching of pages by Web proxy Unit 8 User Interfaces

Triggers • A trigger is a statement that is executed automatically by the system as a side effect of a modification to the database. • To design a trigger mechanism, we must: • Specify the conditions under which the trigger is to be executed. • Specify the actions to be taken when the trigger executes. • Triggers introduced to SQL standard in SQL:1999, but supported even earlier using non-standard syntax by most databases. Unit 8 User Interfaces

Trigger Example • Suppose that instead of allowing negative account balances, the bank deals with overdrafts by • setting the account balance to zero • creating a loan in the amount of the overdraft • giving this loan a loan number identical to the account number of the overdrawn account • The condition for executing the trigger is an update to the account relation that results in a negative balance value. Unit 8 User Interfaces

Trigger Example in SQL:1999 create trigger overdraft-trigger after update on account referencing new row as nrowfor each rowwhen nrow.balance< 0begin atomic insert into borrower (select customer-name, account-number from depositor where nrow.account-number = depositor.account-number); insert into loan values (n.row.account-number, nrow.branch-name, – nrow.balance); update account set balance = 0 where account.account-number = nrow.account-numberend Unit 8 User Interfaces

Triggering event can be insert, delete or update Triggers on update can be restricted to specific attributes E.g. create trigger overdraft-trigger after update of balance on account Values of attributes before and after an update can be referenced referencing old row as : for deletes and updates referencing new row as : for inserts and updates Triggers can be activated before an event, which can serve as extra constraints. E.g. convert blanks to null. create trigger setnull-trigger before update on r referencing new row as nrow for each row when nrow.phone-number = ‘ ‘ set nrow.phone-number = null Triggering Events and Actions in SQL Unit 8 User Interfaces

Statement Level Triggers • Instead of executing a separate action for each affected row, a single action can be executed for all rows affected by a transaction • Use for each statement instead of for each row • Use referencing old table or referencing new table to refer to temporary tables (called transition tables) containing the affected rows • Can be more efficient when dealing with SQL statements that update a large number of rows Unit 8 User Interfaces

External World Actions • We sometimes require external world actions to be triggered on a database update • E.g. re-ordering an item whose quantity in a warehouse has become small, or turning on an alarm light, • Triggers cannot be used to directly implement external-world actions, BUT • Triggers can be used to record actions-to-be-taken in a separate table • Have an external process that repeatedly scans the table, carries out external-world actions and deletes action from table • E.g. Suppose a warehouse has the following tables • inventory (item, level ): How much of each item is in the warehouse • minlevel(item, level ) : What is the minimum desired level of each item • reorder (item, amount ): What quantity should we re-order at a time • orders (item, amount ) : Orders to be placed (read by external process) Unit 8 User Interfaces

create trigger reorder-trigger after update of amount on inventory referencing old row as orow, new row as nrow for each row when nrow.level< = (select level from minlevel where minlevel.item = orow.item) and orow.level> (select level from minlevel where minlevel.item = orow.item) begin insert into orders (select item, amount from reorder where reorder.item = orow.item) end External World Actions (Cont.) Unit 8 User Interfaces

create trigger overdraft-trigger onaccountfor updateas if inserted.balance< 0begin insert into borrower(select customer-name,account-numberfrom depositor, inserted where inserted.account-number = depositor.account-number)insert into loan values (inserted.account-number, inserted.branch-name, – inserted.balance)update account set balance = 0 from account, inserted where account.account-number = inserted.account-numberend Triggers in MS-SQLServer Syntax Unit 8 User Interfaces

When Not To Use Triggers • Triggers were used earlier for tasks such as • maintaining summary data (e.g. total salary of each department) • Replicating databases by recording changes to special relations (called change or delta relations) and having a separate process that applies the changes over to a replica • There are better ways of doing these now: • Databases today provide built in materialized view facilities to maintain summary data • Databases provide built-in support for replication • Encapsulation facilities can be used instead of triggers in many cases • Define methods to update fields • Carry out actions as part of the update methods instead of through a trigger Unit 8 User Interfaces

Forms of authorization on parts of the database: Read authorization - allows reading, but not modification of data. Insert authorization - allows insertion of new data, but not modification of existing data. Update authorization - allows modification, but not deletion of data. Delete authorization - allows deletion of data Authorization in SQL (see also Section 4.3) Unit 8 User Interfaces

Forms of authorization to modify the database schema: Index authorization - allows creation and deletion of indices. Resourcesauthorization - allows creation of new relations. Alterationauthorization - allows addition or deletion of attributes in a relation. Dropauthorization - allows deletion of relations. Authorization (Cont.) Unit 8 User Interfaces

Users can be given authorization on views, without being given any authorization on the relations used in the view definition Ability of views to hide data serves both to simplify usage of the system and to enhance security by allowing users access only to data they need for their job A combination or relational-level security and view-level security can be used to limit a user’s access to precisely the data that user needs. Authorization and Views Unit 8 User Interfaces

Suppose a bank clerk needs to know the names of the customers of each branch, but is not authorized to see specific loan information. Approach: Deny direct access to the loan relation, but grant access to the view cust-loan, which consists only of the names of customers and the branches at which they have a loan. The cust-loan view is defined in SQL as follows: create view cust-loan asselect branchname, customer-name from borrower, loan where borrower.loan-number =loan.loan-number View Example Unit 8 User Interfaces

The clerk is authorized to see the result of the query: select*from cust-loan When the query processor translates the result into a query on the actual relations in the database, we obtain a query on borrower and loan. Authorization must be checked on the clerk’s query before query processing replaces a view by the definition of the view. View Example (Cont.) Unit 8 User Interfaces

Creation of view does not require resources authorization since no real relation is being created The creator of a view gets only those privileges that provide no additional authorization beyond that he already had. E.g. if creator of view cust-loan had only read authorization on borrower and loan, he gets only read authorization on cust-loan Authorization on Views Unit 8 User Interfaces

The passage of authorization from one user to another may be represented by an authorization graph. The nodes of this graph are the users. The root of the graph is the database administrator. Consider graph for update authorization on loan. An edge Ui Uj indicates that user Ui has granted update authorization on loan to Uj. Granting of Privileges U1 U4 DBA U2 U5 U3 Unit 8 User Interfaces

Requirement: All edges in an authorization graph must be part of some path originating with the database administrator If DBA revokes grant from U1: Grant must be revoked from U4 since U1 no longer has authorization Grant must not be revoked from U5 since U5 has another authorization path from DBA through U2 Must prevent cycles of grants with no path from the root: DBA grants authorization to U7 U7 grants authorization to U8 U8 grants authorization to U7 DBA revokes authorization from U7 Must revoke grant U7 to U8 and from U8 to U7 since there is no path from DBA to U7 or to U8 anymore. Authorization Grant Graph Unit 8 User Interfaces

The grant statement is used to confer authorization grant <privilege list> on <relation name or view name> to <user list> <user list> is: a user-id public, which allows all valid users the privilege granted A role (more on this later) Granting a privilege on a view does not imply granting any privileges on the underlying relations. The grantor of the privilege must already hold the privilege on the specified item (or be the database administrator). Security Specification in SQL Unit 8 User Interfaces

select: allows read access to relation,or the ability to query using the view Example: grant users U1, U2, and U3select authorization on the branch relation: grant select on branch to U1, U2, U3 insert: the ability to insert tuples update: the ability to update using the SQL update statement delete: the ability to delete tuples. references: ability to declare foreign keys when creating relations. usage: In SQL-92; authorizes a user to use a specified domain all privileges: used as a short form for all the allowable privileges Privileges in SQL Unit 8 User Interfaces

with grant option: allows a user who is granted a privilege to pass the privilege on to other users. Example: grant select on branch to U1with grant option gives U1 the select privileges on branch and allows U1 to grant this privilege to others Privilege To Grant Privileges Unit 8 User Interfaces

Roles permit common privileges for a class of users can be specified just once by creating a corresponding “role” Privileges can be granted to or revoked from roles, just like user Roles can be assigned to users, and even to other roles SQL:1999 supports roles create role tellercreate role manager grant select on branch to tellergrant update (balance) on account to tellergrant all privileges on account to managergrant teller to managergrantteller to alice, bobgrant manager to avi Roles Unit 8 User Interfaces

The revoke statement is used to revoke authorization. revoke<privilege list> on <relation name or view name> from <user list> [restrict|cascade] Example: revoke select on branch from U1, U2, U3cascade Revocation of a privilege from a user may cause other users also to lose that privilege; referred to as cascading of the revoke. We can prevent cascading by specifying restrict: revoke select on branch from U1, U2, U3restrict With restrict, the revoke command fails if cascading revokes are required. Revoking Authorization in SQL Unit 8 User Interfaces

Unit 8 User Interfaces ( 使用者介面 )